Kernel-based multi-step predictors for data-driven analysis and control of nonlinear systems through the velocity form
Abstract
We propose kernel-based approaches for the construction of a single-step and multi-step predictor of the velocity form of nonlinear (NL) systems, which describes the time-difference dynamics of the corresponding NL system and admits a highly structured representation. The predictors in turn allow to formulate completely data-driven representations of the velocity form. The kernel-based formulation that we derive, inherently respects the structured quasi-linear and specific time-dependent relationship of the velocity form. This results in an efficient multi-step predictor for the velocity form and hence for nonlinear systems. Moreover, by using the velocity form, our methods open the door for data-driven behavioral analysis and control of nonlinear systems with global stability and performance guarantees.
Cite
@article{arxiv.2408.00688,
title = {Kernel-based multi-step predictors for data-driven analysis and control of nonlinear systems through the velocity form},
author = {Chris Verhoek and Roland Tóth},
journal= {arXiv preprint arXiv:2408.00688},
year = {2024}
}
Comments
15 pages